/*
 * $QNXtpLicenseC:
 * Copyright 2007, QNX Software Systems. All Rights Reserved.
 * 
 * You must obtain a written license from and pay applicable license fees to QNX 
 * Software Systems before you may reproduce, modify or distribute this software, 
 * or any work that includes all or part of this software.   Free development 
 * licenses are available for evaluation and non-commercial purposes.  For more 
 * information visit http://licensing.qnx.com or email licensing@qnx.com.
 *  
 * This file may contain contributions from others.  Please review this entire 
 * file for other proprietary rights or license notices, as well as the QNX 
 * Development Suite License Guide at http://licensing.qnx.com/license-guide/ 
 * for other information.
 * $
 */




/* lzo1b_de.h -- definitions for the the LZO1B/LZO1C algorithm

   This file is part of the LZO real-time data compression library.

   Copyright (C) 1996-1999 Markus Franz Xaver Johannes Oberhumer

   Markus F.X.J. Oberhumer
   markus.oberhumer@jk.uni-linz.ac.at
 */


/* WARNING: this file should *not* be used by applications. It is
   part of the implementation of the library and is subject
   to change.
 */


#ifndef __LZO_DEFS_H
#define __LZO_DEFS_H

#ifdef __cplusplus
extern "C" {
#endif


/***********************************************************************
//
************************************************************************/

/*
	 Format of the marker byte

	 76543210
	 --------
	 00000000	R0 - a long literal run ('R0' run)
	 000rrrrr	R  - a short literal run with len r
	 00100000	M4 - a very long match
	 001mmmmm	M3 - a long match  (len = m+M3_MIN_LEN)
	 mmmooooo	M2 - a short match (len = m+M2_MIN_LEN, o = offset low bits)

	         	M1 is not used !
*/


#ifndef R_BITS
#define R_BITS				(5)
#endif


#ifndef M1L_BITS
#define M1L_BITS			(0)
#endif
#ifndef M2L_BITS
#define M2L_BITS			(CHAR_BIT - M2O_BITS)
#endif
#ifndef M3L_BITS
#define M3L_BITS			(R_BITS)
#endif
#ifndef M4L_BITS
#define M4L_BITS			(CHAR_BIT)
#endif

#ifndef M1O_BITS
#define M1O_BITS			(6)
#endif
#ifndef M2O_BITS
#define M2O_BITS			(R_BITS)
#endif
#ifndef M3O_BITS
#define M3O_BITS			(CHAR_BIT)
#endif
#ifndef M4O_BITS
#define M4O_BITS			(M3O_BITS)				/* must be the same */
#endif

#ifndef M1X_BITS
#define M1X_BITS			(M1O_BITS)
#endif
#ifndef M2X_BITS
#define M2X_BITS			(M2O_BITS + CHAR_BIT)
#endif
#ifndef M3X_BITS
#define M3X_BITS			(M3O_BITS + CHAR_BIT)
#endif
#ifndef M4X_BITS
#define M4X_BITS			M3X_BITS
#endif


#define __MIN_OFFSET(bits)	1
#define __MAX_OFFSET(bits)	(LZO_LSIZE(bits) - __MIN_OFFSET(bits) + 1)

#define M1_MIN_OFFSET		__MIN_OFFSET(M1X_BITS)
#define M2_MIN_OFFSET		__MIN_OFFSET(M2X_BITS)
#define M3_MIN_OFFSET		__MIN_OFFSET(M3X_BITS)
#define M4_MIN_OFFSET		M3_MIN_OFFSET

#if defined(LZO_EOF_CODE) && !defined(M3_EOF_OFFSET)
#define M3_EOF_OFFSET		1
#else
#define M3_EOF_OFFSET		0
#endif

#ifndef _M1_MAX_OFFSET
#define _M1_MAX_OFFSET		__MAX_OFFSET(M1X_BITS)
#endif
#ifndef _M2_MAX_OFFSET
#define _M2_MAX_OFFSET		__MAX_OFFSET(M2X_BITS)
#endif
#ifndef _M3_MAX_OFFSET
#define _M3_MAX_OFFSET		(__MAX_OFFSET(M3X_BITS) - M3_EOF_OFFSET)
#endif
#ifndef _M4_MAX_OFFSET
#define _M4_MAX_OFFSET		_M3_MAX_OFFSET
#endif
#ifndef _MAX_OFFSET
#define _MAX_OFFSET			_M4_MAX_OFFSET
#endif

#if (M3_EOF_OFFSET > 0) && (_M2_MAX_OFFSET == _M3_MAX_OFFSET + M3_EOF_OFFSET)
#  undef _M2_MAX_OFFSET
#  define _M2_MAX_OFFSET	_M3_MAX_OFFSET
#endif
#if (_M2_MAX_OFFSET > _M3_MAX_OFFSET)
#  error
#endif

#define M1_MAX_OFFSET		((lzo_ptrdiff_t) _M1_MAX_OFFSET)
#define M2_MAX_OFFSET		((lzo_ptrdiff_t) _M2_MAX_OFFSET)
#define M3_MAX_OFFSET		((lzo_ptrdiff_t) _M3_MAX_OFFSET)
#define M4_MAX_OFFSET		((lzo_ptrdiff_t) _M4_MAX_OFFSET)
#define MAX_OFFSET			((lzo_ptrdiff_t) _MAX_OFFSET)


#ifndef M1_MIN_LEN
#define M1_MIN_LEN			(2)
#endif
#ifndef M2_MIN_LEN
#define M2_MIN_LEN			(3)
#endif
#ifndef M3_MIN_LEN
#if (M3X_BITS == M2X_BITS)
#define M3_MIN_LEN			(M2_MAX_LEN + 1)
#else
#define M3_MIN_LEN			(4)
#endif
#endif
#ifndef M4_MIN_LEN
#define M4_MIN_LEN			(M3_MAX_LEN + 1)
#endif

#ifndef M1_MAX_LEN
#define M1_MAX_LEN			(M1_MIN_LEN + LZO_SIZE(M1L_BITS) - 1)
#endif
#ifndef M2_MAX_LEN
#define M2_MAX_LEN			(M2_MIN_LEN + LZO_SIZE(M2L_BITS) - 1 - 2)
#endif
#ifndef M3_MAX_LEN
#define M3_MAX_LEN			(M3_MIN_LEN + LZO_SIZE(M3L_BITS) - 1 - 1)
#endif
#ifndef M4_MAX_LEN
#define M4_MAX_LEN			(ULONG_MAX)
#endif


#define M1O_MASK			LZO_MASK(M1O_BITS)
#define M1L_MASK			LZO_MASK(M1L_BITS)
#define M2O_MASK			LZO_MASK(M2O_BITS)
#define M2L_MASK			LZO_MASK(M2L_BITS)
#define M3O_MASK			LZO_MASK(M3O_BITS)
#define M3L_MASK			LZO_MASK(M3L_BITS)
#define M4O_MASK			LZO_MASK(M4O_BITS)
#define M4L_MASK			LZO_MASK(M4L_BITS)


#define M1_MARKER			(1 << M1O_BITS)
#define M2_MARKER			(2 << M2O_BITS)
#define M3_MARKER			(1 << M3L_BITS)
#define M4_MARKER			M3_MARKER


/***********************************************************************
// R0 literal run (a long run)
************************************************************************/

#ifndef R0MIN
#define R0MIN	(LZO_SIZE(R_BITS))	/* Minimum len of R0 run of literals */
#endif
#define R0MAX	(R0MIN + 256 - 1)	/* Maximum len of R0 run of literals */

#if (R0MAX - (R0MAX & ~7u) >= 7)
#define R0FAST	(R0MAX & ~7u)		/* R0MAX aligned to 8 byte boundary */
#else
#define R0FAST	(R0MAX & ~15u)		/* R0MAX aligned to 8 byte boundary */
#endif

#if (R0MAX - R0FAST < 7) || ((R0FAST & 7) != 0)
#  error something went wrong
#endif
#if (R0FAST * 2 < 512)
#  error R0FAST is not big enough
#endif

/* 7 special codes from R0FAST+1 .. R0MAX
 * these codes mean long R0 runs with lengths
 * 512, 1024, 2048, 4096, 8192, 16384, 32768
 */



/***********************************************************************
// matching
************************************************************************/

#define PS	*m_pos++ != *ip++


/* We already matched M2_MIN_LEN bytes.
 * Try to match another M2_MAX_LEN - M2_MIN_LEN bytes. */

#if (M2_MAX_LEN - M2_MIN_LEN == 4)
#  define MATCH_M2X		(PS || PS || PS || PS)
#elif (M2_MAX_LEN - M2_MIN_LEN == 5)
#  define MATCH_M2X		(PS || PS || PS || PS || PS)
#elif (M2_MAX_LEN - M2_MIN_LEN == 6)
#  define MATCH_M2X		(PS || PS || PS || PS || PS || PS)
#elif (M2_MAX_LEN - M2_MIN_LEN == 7)
#  define MATCH_M2X		(PS || PS || PS || PS || PS || PS || PS)
#elif (M2_MAX_LEN - M2_MIN_LEN == 13)
#  define MATCH_M2X		(PS || PS || PS || PS || PS || PS || PS || PS || \
						 PS || PS || PS || PS || PS)
#elif (M2_MAX_LEN - M2_MIN_LEN == 14)
#  define MATCH_M2X		(PS || PS || PS || PS || PS || PS || PS || PS || \
						 PS || PS || PS || PS || PS || PS)
#elif (M2_MAX_LEN - M2_MIN_LEN == 16)
#  define MATCH_M2X		(PS || PS || PS || PS || PS || PS || PS || PS || \
						 PS || PS || PS || PS || PS || PS || PS || PS)
#elif (M2_MAX_LEN - M2_MIN_LEN == 29)
#  define MATCH_M2X		(PS || PS || PS || PS || PS || PS || PS || PS || \
						 PS || PS || PS || PS || PS || PS || PS || PS || \
						 PS || PS || PS || PS || PS || PS || PS || PS || \
						 PS || PS || PS || PS || PS)
#else
#  error MATCH_M2X not yet implemented
#endif


/* We already matched M2_MIN_LEN bytes.
 * Try to match another M2_MAX_LEN + 1 - M2_MIN_LEN bytes
 * to see if we get more than a M2 match */

#define MATCH_M2		(MATCH_M2X || PS)


/***********************************************************************
// copying
************************************************************************/

#define _CP				*op++ = *m_pos++

#if (M2_MIN_LEN == 2)
#  define COPY_M2X		_CP
#elif (M2_MIN_LEN == 3)
#  define COPY_M2X		_CP; _CP
#elif (M2_MIN_LEN == 4)
#  define COPY_M2X		_CP; _CP; _CP
#else
#  error COPY_M2X not yet implemented
#endif

#if (M3_MIN_LEN == 3)
#  define COPY_M3X		_CP; _CP
#elif (M3_MIN_LEN == 4)
#  define COPY_M3X		_CP; _CP; _CP
#elif (M3_MIN_LEN == 9)
#  define COPY_M3X		_CP; _CP; _CP; _CP; _CP; _CP; _CP; _CP
#else
#  error COPY_M3X not yet implemented
#endif

#define COPY_M2			COPY_M2X; *op++ = *m_pos++
#define COPY_M3			COPY_M3X; *op++ = *m_pos++


/***********************************************************************
//
************************************************************************/

#if defined(LZO_NEED_DICT_H)

#define DL_MIN_LEN			M2_MIN_LEN
#define D_INDEX1(d,p)		d = DM((0x21*DX3(p,5,5,6)) >> 5)
#define D_INDEX2(d,p)		d = (d & (D_MASK & 0x7ff)) ^ (D_HIGH | 0x1f)
#include "lzo_dict.h"

#ifndef MIN_LOOKAHEAD
#define MIN_LOOKAHEAD		(M2_MAX_LEN + 1)
#endif
#ifndef MAX_LOOKBEHIND
#define MAX_LOOKBEHIND		(MAX_OFFSET)
#endif

#endif /* defined(LZO_NEED_DICT_H) */


#ifdef __cplusplus
} /* extern "C" */
#endif

#endif /* already included */

/*
vi:ts=4
*/

